Fire stop clamp
A fire stop clamp is presented. The fire stop clamp includes a support clamp and a fire stop disc. The support clamp supports a pipe by preventing movement of a pipe towards a structural member. The fire stop disc seals an opening associated with a pipe penetration. The sealed opening inhibits the passage of fire and smoke through the opening. The fire stop clamp includes an expansion element that pushes the fire stop disc towards the structural member. If a pipe moves away from the structural member, the expansion element will allow the fire stop disc to retain a seal over the opening.
Latest Cooper Technologies Company Patents:
The present invention relates generally to the field of mechanical supports for pipe penetrations and more particularly a fire stop that supports a pipe and inhibits the passage of smoke and fire through a penetration.
BACKGROUNDIn modern building construction, state, county, and local building codes contain strict requirements relating to fire stopping measures. Most building codes, for example, require a specific fire-rating for walls and floors within a building. The fire-rating insures that if a fire occurs in one region of a building, it will be contained within that region for a time associated with the fire-rating.
Another building code requirement is that pipe or conduit penetrations through a fire barrier, such as a ceiling or wall, need to be sealed to restore the rating of the fire barrier. Typically, a contractor will fill theses openings with a backer material (polyethylene, polyurethane, or mineral wool) and seal the opening with a special caulk marketed for this purpose. This caulk and backer system of sealing pipe penetrations, however, has many drawbacks. For example, during construction, caulk and backer systems frequently wash out. Pipe movement (horizontal and vertical) due to internal pressurization, thermal expansion, thermal elongation, or seismic forces causes corruption of a sealed opening. A thin film or bead of caulk would not be able to withstand the stress created by a pipe moving from one side of an opening to the other, or from pipe elongation or movement perpendicular to the opening. Additionally, caulk and backer systems have high installation costs and are manual labor intensive. Therefore, a fire stop clamp, that supports a pipe and inhibits the passage of smoke and fire through a pipe penetration, is presented.
SUMMARYA fire stop clamp is presented. The fire stop clamp supports a vertical or horizontal pipe that passes through a structural member. The fire stop clamp supports a pipe by preventing movement toward the structural member. Additionally, the weight associated with a vertically mounted pipe may be distributed, via the fire stop clamp, to a structural member. The fire stop clamp includes a fire stop disc, or plate, that seals, and therefore inhibits the passage of fire and smoke through an opening. The diameter of the fire stop clamp disc may be determined so that pipe movement is prevented from corrupting the seal of the opening.
In another example, the fire stop clamp includes a spring as an expandable element which is coupled to a support collar and the fire stop disc. The spring pushes the fire stop disc towards the opening, allowing the opening to remain sealed when a pipe moves away from the opening due to internal pressurization, thermal expansion, thermal elongation, or other external forces. The fire stop disc may include a retention pin, tube, or cylinder for guiding the expansion of the spring.
In yet another example, the fire stop clamp includes overlapping tubes or cylinders filled with expandable carbon as the expandable element. Instead of carbon other suitable expandable materials may also be used to expand the expandable element when exposed to heat. The overlapping cylinders are coupled to the support collar and to the fire stop disk. When exposed to heat, the expandable material expands and pushes the fire stop disk towards the opening, allowing the opening to remain sealed when a pipe moves away from the opening. The overlapping cylinders may also include a spring to provide an expansion element at lower temperatures.
In an even further example, the fire stop clamp includes a removable clip. When the removable clip is removed, the expandable element engages the fire stop disc and allows it to be pushed towards the opening. The removable clip may be constructed from a fusible element, so that when the removable clip is heated above a melting temperature associated with the fusible element, the spring engages the fire stop disc.
These as well as other aspects and advantages will become apparent to those of ordinary skill in the art by reading the following detailed description, with reference where appropriate to the accompanying drawings. Further, it is understood that this summary is merely an example and is not intended to limit the scope of the claims.
Certain examples are described below in conjunction with the appended drawing figures, wherein like reference numerals refer to like elements in the various figures, and wherein:
A fire stop clamp for supporting a pipe and inhibiting the passage of smoke and fire through a pipe penetration is presented. The fire stop clamp includes support collars (or a support clamp) and a fire stop disc (or plate). The support clamp prevents pipe movement towards a structural member. The fire stop disc seals the opening associated with a pipe penetration.
Turning now to
The support clamp 15 is mounted to a fire stop disc 24. The fire stop disc 24 has an inside diameter (or radius) that fits snugly around pipe 18. The outside diameter (or radius) of the fire stop disc 24 should be large enough to cover the opening of a pipe penetration. The support clamp in
A cross sectional view of fire stop clamp 10 passing through an opening 28 in a floor 30 is illustrated in
Often times, however, when pipes are pressurized, or exposed to high temperatures, they may expand and elongate and can cause the fire stop clamp 10 to move away from a floor or other structural member. If this occurs, the opening 28 may allow smoke and fire to pass through the opening 28.
Fire stop clamp 40, presented in
Also included in the fire stop 40 is a removable clip 50. In the event of a fire, a removable clip, or multiple removable clips, may engage the expansion element of the fire stop clamp 40. The removable clip 50 may be made of a fusible element having a melting temperature associated with it. When the removable clip 50 is heated above its melting temperature (i.e., a fire), it will melt and the support clamp 15 will release from the fire stop disc 24. For example, in
Instead of a spring, other types of expandable elements may be used to maintain a seal in between the fire stop disc 24 and an opening.
Alternatively, both a spring 62 and an expandable material 64 may be used to create expandable element 66, as shown if
Although a spring is illustrated in the above examples of
In order to mount the above fire stop clamps to a pipe, the fire stop disc may include two half disc plates. A bottom view of fire stop clamp 40 illustrating half disc plates 68 and 70 is shown in
Each spring loaded collar may be designed to fit a desired pipe radius. Spring loaded collars 72 and 74, for example, have respective interior radiuses 76 and 78 that correspond to a pipe's radius. Once the radius has been chosen, spring loaded collars 72 and 74 may be clamped around a pipe. Spring loaded collar 72 includes locking tabs 80 and 82 which may be used with fasteners 20 and 22 to lock spring loaded collars 72 and 74 together. The locking tabs 80 and 82 overlap half disc plate 70. The overlap of half disc plate 70 allows the fire stop disc to completely seal an opening. Additionally, as described above, the exterior diameter of the fire stop disc should be determined so that pipe movement will not corrupt the seal of an opening through a structural member. A top view of fire stop clamp 40, illustrated in
Overall, the above examples describe a fire stop clamp. The fire stop clamp includes a fire stop disc and a support clamp. The fire stop disc and support clamp may be manufactured out of a variety of metallic alloys or other fire resistant materials. Additionally the fire stop disc and support clamp may comprise individual components such as half disc plates, supports collars, fasteners, removable clips, expandable elements, etc., which may be used to mount the fire stop clamp to a pipe and insure the fire stop disc retains a seal around an opening associated with a pipe penetration. It should be understood that the illustrated examples are examples only and should not be taken as limiting the scope of the present invention. The claims should not be read as limited to the described order or elements unless stated to that effect. Therefore, all examples that come within the scope and spirit of the following claims and equivalents thereto are claimed as the invention.
Claims
1. A fire stop clamp for supporting a pipe and sealing an opening through a structural member through which the pipe passes, comprising a support clamp coupled to a fire stop in a manner which permits relative movement between the support clamp and the fire stop in a direction generally parallel to the pipe, the support clamp having a first inside diameter sized for fitting around the pipe and being configured to be tightened to prevent the pipe from moving toward the structural member, and the fire stop having a second inside diameter sized for fitting around the pipe and an outside diameter sized for sealing the opening, thereby inhibiting the passage of fire and smoke through the opening, the support clamp and fire stop being coupled such that the fire stop remains in place sealing the opening around the pipe upon movement of the pipe and support clamp member away from the structural member in said direction generally parallel to the pipe.
2. The fire stop clamp as in claim 1, wherein the fire stop has no fastener openings for fastening the fire stop to said structural member, and wherein the outside diameter of the fire stop is determined so that the sealing of the opening is not corrupted during lateral movement of the pipe in the opening.
3. The fire stop clamp as in claim 1, wherein the support clamp is coupled to the fire stop by an elongate stiffener having a length extending in a generally radial direction with respect to said first inside diameter, the stiffener distributing movement and weight associated with the pipe to the fire stop.
4. The fire stop clamp as in claim 1, wherein the support clamp is coupled to the fire stop by an expansion element, the expansion element, in operation, pushing the fire stop towards the structural member when the support clamp moves away from the structural member, thereby allowing the opening to remain sealed.
5. The fire stop clamp as in claim 4, wherein the support clamp moves away from the structural member for reasons selected from the group consisting of internal pressurization, thermal expansion, thermal elongation, and seismic forces.
6. The fire stop clamp as in claim 4, wherein the expansion element is a spring arranged to exert a force generally parallel to the pipe.
7. The fire stop clamp as in claim 4, wherein the expansion element comprises a first cylinder perpendicularly mounted to the support clamp, a second cylinder perpendicularly mounted to the fire stop disc that overlaps the first cylinder, and an expandable material located inside the first and second cylinders, the expandable material expanding when exposed to heat above a predetermined threshold.
8. The fire stop clamp as in claim 4, wherein the support clamp is further coupled to the fire stop by a removable clip, the removable clip, when removed, allowing the expansion element to push the fire stop.
9. The fire stop claim as in claim 8, wherein the removable clip is constructed from a fusible element, the removable clip allowing the expansion element to push the fire stop when the removable clip is heated above a melting temperature associated with the fusible element.
10. A fire stop clamp for supporting a pipe and sealing an opening through a structural member through which the pipe passes, comprising:
- first and second support collars each having a radial portion and first and second clamping portions, the radial portion having a radius sized for fining the pipe;
- first and second half plates each having an inside radius sized for fitting the pipe, the first and second half plates forming a fire stop that is sized for completely sealing the opening around the pipe; and
- an expansion element coupling at least one of the first and second support collars and the fire stop and allowing relative movement between the at least one of the first and second support collars and the fire stop in a direction generally parallel to the pipe, the expansion element being expandable in said direction generally parallel to the pipe to maintain the fire stop in a position sealing the opening around the pipe in the event the first and second support collars move with the pipe away from the structural member.
11. The fire stop clamp as in claim 10, wherein the expansion element is a spring arranged to exert a force generally parallel to the pipe.
12. The fire stop clamp as in claim 10, wherein the expansion element is expansible to push the fire stop away from said at least one of the first and second support collars.
13. The fire stop clamp as in claim 10, wherein the expansion element comprises a first cylinder perpendicularly mounted to at least one of the first and second support collars, the first cylinder filled with an expandable material that expands proportionally to the amount of heat that the expandable material is exposed to over a first temperature range.
14. The fire stop clamp as in claim 13, wherein the expandable material is expandable carbon.
15. The fire stop clamp as in claim 13, wherein the fire stop disc comprises a second cylinder perpendicularly mounted thereto, the second cylinder overlapping the first cylinder, thereby guiding expansion associated with the expansion element.
16. The fire stop clamp as in claim 13, wherein the expansion element further includes a spring for pushing fire stop disc towards the structural member in a second temperature range, the expandable material for pushing the fire stop disc towards the structural member in the first temperature range.
17. A fire stop clamp for supporting a pipe and sealing an opening through a structural member through which the pipe passes, comprising:
- a first spring loaded collar comprising a first support collar coupled, via a first spring, to a first half plate for permitting relative movement between the first spring loaded collar and the first half plate in a direction generally parallel to the pipe, the first support collar and first half plate each having an inside radius sized for fitting the pipe, and the first half plate having an outside radius covering a first portion of the opening; and
- a second spring loaded collar comprising a second support collar coupled, via a second spring, to a second half plate for permitting relative movement between the second spring loaded collar and the second half plate in a direction generally parallel to the pipe, the second support collar and second half plate each having an inside radius sized for fitting the pipe; the first and second springs being expandable in a direction generally parallel to the pipe to maintain the half plates in a position sealing the opening around the pipe in the event the first and second support collars move with the pipe away from the opening.
18. The fire stop clamp as in claim 17, wherein the first and second support collars each further comprise a tab extending in a generally radial direction with respect to said inside radius of the support collar, each tab being located above the respective first and second half plates, the first spring being coupled to the tab of the first support collar and the first half plate, and the second spring being coupled to the tab of the second support collar and the second half plate.
19. The fire stop claim as in claim 18, wherein the first and second half plates each further comprise respective first and second retention pins mounted on a surface of the first and second half plates, the first and second retention pins respectively being located inside the first and second springs.
20. The fire stop clamp as in claim 19, wherein the first and second support collars are each further coupled to the first and second half plates by a removable clip, the removable clip of the first and second supports, when removed, allowing the spring to push the first and second half plates towards the structural member.
713537 | November 1902 | Treadwell |
1494234 | May 1924 | Gossett |
1710060 | April 1929 | Metcalf, Jr. |
2800850 | July 1957 | McKann |
3052065 | September 1962 | Rettman |
3105664 | October 1963 | Poradun |
3678634 | July 1972 | Wise et al. |
4150848 | April 24, 1979 | Dyrup |
4407023 | October 4, 1983 | Norton |
4488566 | December 18, 1984 | Hicks |
4630415 | December 23, 1986 | Attwell |
4659868 | April 21, 1987 | Sala |
4788800 | December 6, 1988 | Whiteley |
4796401 | January 10, 1989 | Wexler |
4848043 | July 18, 1989 | Harbeke |
4901488 | February 20, 1990 | Murota et al. |
4974623 | December 4, 1990 | Sturgis |
5120009 | June 9, 1992 | Sasin |
5155957 | October 20, 1992 | Robertson et al. |
5183070 | February 2, 1993 | Cornwall |
5253455 | October 19, 1993 | Cross |
5257641 | November 2, 1993 | Elsbury et al. |
5301475 | April 12, 1994 | Stefely |
5331946 | July 26, 1994 | Yamini et al. |
5421127 | June 6, 1995 | Stefely |
5452551 | September 26, 1995 | Charland et al. |
5548934 | August 27, 1996 | Israelson |
5702218 | December 30, 1997 | Onofrio |
5727762 | March 17, 1998 | Cosentino |
5887396 | March 30, 1999 | Thoreson |
5898987 | May 4, 1999 | Onofrio |
5953872 | September 21, 1999 | MacMillian et al. |
7010889 | March 14, 2006 | Renfro |
7051695 | May 30, 2006 | Kowis |
20030024185 | February 6, 2003 | Menzies |
20040100040 | May 27, 2004 | Sakno |
20040168398 | September 2, 2004 | Sakno et al. |
20040238031 | December 2, 2004 | Lee |
Type: Grant
Filed: Jan 31, 2006
Date of Patent: Aug 31, 2010
Patent Publication Number: 20070193141
Assignee: Cooper Technologies Company (Houston, TX)
Inventors: Jeffrey Warmolts (Glen Ellyn, IL), Sigismund Paul (Hanover, IL)
Primary Examiner: Richard E Chilcot, Jr.
Assistant Examiner: James Ference
Attorney: Senniger Powers LLP
Application Number: 11/343,982
International Classification: E04B 1/94 (20060101);